Cord connecter



J. H. CANNON CORD CONNECTER May 7, 1935.

Filed May 22, 1933 2 Sheets-Sheet l A rr'o/a/vEx May 7, 1935.

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Arroemsn Patented May 1, 1935 UNITED STATES PATENT OFFICE '1 Claims.

My invention relates to separable connecters of the character employed with electric conductors, such as cables and cords, and relates in particular to a connecter especially suitable for all uses where the circuits formed through the cords or cables must be positively and constantly maintained in order to avoid accidental interruption or fluctuation of the electrical currents flowing in the respective circuits.

My invention is especially suited to use in forming electrical circuits in sound recording and reproducing equipment such as now employed in the motion picture industry wherein various pieces of electrical apparatus must be connected into main circuits through the use of electrical cords and cables. An interruption of the flow of energy in any one of the circuits may result disastrously and necessitate the duplication of considerable work. For example, in the photographing or tak-- ing of a sound motion picture, the camera and the microphone are connected through electrical cords or cables with sound recording equipment. An interruption or fluctuation of the microphone circuit will ruin the sound record, and the interruption of current flow to the camera motor will result in throwing the camera out of synchrony with the motors of the recording equipment.

My invention has for an object to provide a connecter in which perfect and positive electrical engagement of the electric circuit forming members is attained, and which is of simple and rugged construction.

It is a further object of the invention to provide a connecter comprised of interengaging parts having cooperating contacts therein and being provided with a simple and effective form of catch or locking means which will prevent accidental separation of the connecter members, but which may be released quickly when separation of the connecter members is desired. It often occurs that a tension is exerted on the cable, due, for instance, to a workman tripping over a cable, which tension will tend to disconnect the connecter members, thereby interrupting the electrical circuits formed therethrough. The lock or catch means of my invention positively prevents separation of the connecter parts in such an accidental manner, so that losses due to accidental interruption of circuits from this source are avoided. I

A further object of the invention is to provide an improved form of contact member and means for operatively holding said contact member in the plug structure in a floating position so that it is subject to centering movement and accordingly is not subject to lateral forces which might cause such movement of the relative contact parts as to break the circuit or cause the same to fluctuate.

A further object of the invention is to provide an angle-type connecter having a removable cap whereby the contacts may be exposed during the connection of the wires thereto and for the purpose of inspecting the connections which have been made.

Further objects and advantages of the invention will be made evident throughout the following part of the specification.

Referring to the drawings, which are for illustrative purposes only,

Fig. 1 is a vertically sectioned view of a preferred form of angle connecter member.

Fig. 2 is a vertically sectioned view showing a connecter member adapted to be mounted in a wall and adapted to cooperate with the connecter shown in Fig. 1.

Fig. 3 is a perspective view of the connecter 'shown in Fig. 1.

Fig. 4 is a view looking toward the rightward end of the connecter shown in Fig. 2.

Fig; 5 is a cross section on a plane represented by the line 5-5 of Fig. 2.

Fig. 6 is a vertically sectioned view of a connecter similar to the connecter shown in Fig. 1, but adapted for rectilinear attachment to a cord.

Fig. 7 is a partly sectioned view of a cord con-' necter adapted for interengagement with the connecter shown in Fig. 6.

Fig. 8 is a view of the front end of the connecter shown in Fig. 7, this view being taken from a plane indicated by the line 8-8 of Fig. '7.

Fig. 9 is a perspective. view of a preferred form of socket contact element employed in the practice of my invention. 1

In my invention I prefer to employ, as shown in Figs. 2 and '7, a primary connecter body I0 and, as shown in Figs. 1 and 6, a secondary connecter body ll adapted for use in a number of different forms of connecter members. As shown in Figs. 2, 4, 5, '7, and 8, the primary connecter body [0 is of cylindrical form and is adapted to be mounted in an opening provided by a suitable supporting structure, such as the wall fitting l2 of Fig. 2 or the cord connecter fitting l3 of Fig. '7. In its preferred form, the member ID is cylindrical so that circular ends are presented thereby. The member ID provides a simple, rugged, and eflective means for supporting a plurality of contact elements M, which are preferably of socket type, in position to receive pintype contact elements l5 supported by the secondary connecter body ll operatively held in a cooperating connecter fitting of the character shown in Figs. 1 and 6.

The primary connecterbody ID has a plurality of longitudinally elongated chambers or recesses I6 therein which are of rectangular cross section, as shown in Fig. 5, and each of which chambers it has a forward opening I! in the front wall l8 of the body I0 and a rear opening 20 in the rear wall 2| of the body Ill. To provide access to the chambers |6 so that connecter elements |4 may be placed therein, one of the end walls of the body I is detachably secured. In my present invention the rear end wall 2| comprises a separate circular disc of molded insu-' lating material adapted to be secured by means of screws 2|a, as shown in Fig. 4, to the inner or rearward end face 22 of a body part 23 forming the outer or forward portion of the primary connecter body l0 and having a flange or bead 24 near the rearward end face 22 thereof, but being spaced from the end face 2|, as shown in Figs. 2 and 7, so as to provide a rearwardly projecting cylindrical portion 25 having the same diameter as the rear wall 2|.

The socket contact elements l4 are constructed as shown in Fig. 9. They each consist of a body portion 26 preferably made from square metal stock, this body portion 26 having the rearward end thereof turned down to form a projecting stem 21 which is in turn provided with a drilled opening 26 into which a wire of a cable may be soldered, it being preferable to chamfer off the end or stem 21, as shown at 30, so as to form a solder receiving trough at the end of the opening 28. From the forward end of the body 26 an opening 3| is drilled, of suflicient depth to receive a pin contact element l5, and a side opening 32 is provided communicating with the opening or bore 3| by removing a portion of the wall formed by said body 26 around the opening 3|. This side opening 32 may be formed at the forward extremity of the body 26 by cutting away a portion of the body, as shown at 33. An essentially flat spring member 34 is then secured to the body 26 by some suitable means such as a rivet 35 at the rearward end of the body 26, in such position that the forward end or engagement portion 36 of the spring 34 will lie across the side opening 32 of the opening or socket 3| of the body 26. The spring member 34 is preferably made from stifi spring bronze so that the strength and resilience thereof will be maintained for a maximum period of time, and the inner face of the engagement end 36 is disposed in such position across the side opening 32 that the diametral dimension from the inner face of the engagement end 36 to the opposite surface of the bore or socket 3| will be materially less than the diameter of a pin contact element |5, the result being that when a pin contact element I is moved into the socket 3|, the forward end of the spring 34 will be deflected outwardly and will press forcibly against one side of the pin contact element l5 and will accordingly force the pin contact element l5 into tight engagement with the wall of the socket 3| opposite the engagement end 36 of the spring 34. The spring 34 is initially placed under tension, and the pressure with which it engages a pin contact element |5 results in a cleaning action of the parts of the pin |5 engaged by the engagement end 36 of the spring 34 and the wall of the member 26 around the socket 3|, with the result that a perfect electric contact of the pin and the socket contact elements I4 is attained. separable contact elements are customarily formed in multipull connecter devices of the general character disclosed herein consisting of a sleeve adapted to receive a pin, such pin being split longitudinally so as to provide a pair of forks which may be spread apart so that they will frictionally engage the interior surface of the sleeve. Such split contact pins soon are deformed so that there is no assurance that a perfeet electrical contact thereof with the cooperating sleeve will be maintained. In my device, however, a perfect electrical contact is assured for the reason that the spring engagement between the contact elements is produced by the use of a separate tempered bronze spring 34 which may be flexed repeatedly without losing its strength, and for the further reason that the body 26 of the socket contact element 14 is materially smaller than the chamber I6, and the stem 21 is smaller than the opening 26 in the rear wall 2|, so that the socket contact element |4 may move transversely in the chamber l6 into practical alignment with the cooperating pin contact element l5. Accordingly, no strains are placed upon the spring 34 during the insertion of the pin contact element l5 other than the mere deflection of the spring 34 due to the engagement end 33 thereof being forced outwardly relative to the forward end of the body 26 as the pin l5 enters the socket 3|; The openings I! in the forward end wall l8 of the cooperating body part 23 are of larger diameter than the pins |5, so that the pins l5 may readily enter the holes even though there is a slight disalignment thereof.

The cooperating cylindrical parts 2| and 23, when secured together by the screws 2 la, form an essentially cylindrical primary connecter body having an intermediate, radially projecting flange or rib 24 disposed between two oppositely extending cylindrical walls 31 and 36. The casing or fitting 3 has a cylindrical wall 46 of a size to receive the rearwardly extending cylindrical wall portion 38 of the primary connecter body I, and this wall 40 is of such length that when the leftward or outer end or lip of the wall 40 engages the rib 24 of the body Ill, a chamber 4| is left within the fitting |3 for accommodation of the rightwardly projecting ends of the stem 21 and the ends of wires which are connected thereto. The rightward end of the wall 40 is constricted at 42 to join a cylindrical extension 43 through which a cable or cord is adapted to extend into the chamber 4|, and the outer end of the tubular extension 43 is provided with a semi-circular wall 44 forming a part of a cord clamp 45, which clamp 45 also includes a separable semi-circular part 46, the parts 44 and 46 each having a pair of diametrally extending lugs 41 for receiving screws 46 by which the separable part 46 may be tightened down against a cable which lies in the semi-circular part 44. The primary connecter body I0 is secured in the shell or fitting |3 by means of screws 50 which extend through the wall 40 into engagement with the cooperating part 2| of the body ID.

A further feature of the invention resides in the simple catch or locking means formed in conjunction with the body III for releasably securing complementary connecter members to-- gether. As shown in Figs. 2, 4, 5, '7, and 8, the primary connecter body I0 has a longitudinal groove 5| in the outer face thereof, which groove preferably extends from end to end of the body l0 and is preferably of rectangular cross section. This groove is adapted to receive a catch member which has essentially the same characteristics in both the forms of the invention shown in Figs.-

2 and '7. As shown in Figs. 7 and 8, the catch means includes a catch member 52 of flat strip form of a width to fit within the groove 5|, and having on the outer face thereof an outwardly projecting catch dog 53, and rearwardly of the dog 53 an outwardly projecting metal body 54 forming a manually engageable button whereby the catch member 52 may be swung inwardly from the position in which it is shown in Fig. 7 so as to carry the catch dog inwardly to a retracted position. Beneath the catch member 52 within the groove 5| is a fiat leaf spring member 55 which is preferably laminated and the forward end of which is preferably secured to. the under face of the catch member 52 by use of a screw 58 having a head 51 thereon which projects into a recess or opening 58 in the bottom wall of the groove 5| near the forward end thereof. It will be perceived that the engagement of the head 5'! with the recess 58 resists longitudinal movement of the catch member 52 in the groove 5|. The rearward end of the catch member 52 has a tapered socket or recess 58 formed in the under face thereof adapted to engage the conical head of a screw H which projects through an opening 82 in the rearward end of the spring 55 into threaded engagement with the cooperating part 2| of the body l8. It will be perceived that the screw 5! in conjunction with the socket 58 provides means of interengagement between the body i8 and the catch member 52 which also resists longitudinal movement of the catch member 52 but does not prevent outward movement of the rearward end of the catch 1 member necessary to accomplish a projection of the catch dog 53 from the cylindrical face of the body l8. The rightward or rearward end of the catch member extends into an open notch 63 in the wall 48 of the fitting l8, and the rightward end of the catch member 52 is provided with aprojection 64 which extends under a sloping wall surface 55 at the inner end of the open notch 53 in such a manner that engagement of the projection 64 with the sloping wall surface 85 limits the outward swinging movement of the rightward or inner end of the catch member 52 relative to the body l8.

My invention also provides a reinforcing ring 51 disposed around theforward end of the body l8 and passing over the forward end of the groove 5| so as to form a bridge 88 under which the leftward or outer extremity of the catch member 52 may extend, as shown in Fig. 7, thereby preventing an outward movement of the catch member 52 relative to the groove 5|. The ring 61 is especially advantageous as a protector for the end portion of the primary connecter body l8 which, being made of a relatively hard insulating material such as a phenolic condensation product, would be broken when the connecter shown in Fig. 7 is being handled or dragged across the floor were it not for the presence of the protector ring 51 which is molded in place on the end of the body l8 and is keyed thereto by reason of the fact that-the ring 81 has a groove 18 in the inner face thereof into which the material of the body l8 projects. The complementary connecter member shown in Fig. 6 has a cylindrical wall 480 which is of such length as to provide a forwardly projecting cylindrical guard wall H of such internal diameter that the projecting end or wall portion 81 of the body I8 will pass thereinto in such a manner that the pin contact elements l5 will project through the openings H in the body l8 into engagement with the contact elements i4 carried by the body l8. Adjacent the rightward end of the wall H a depression i2 is cut so as to provide a shoulder 18 which will be engaged by the catch dog 53 of the catch member 52 when the cooperating connecter members of Figs. 6 and 7 are in interengagement. The depression 12 may satisfactorily consist of a circular groove formed in the inner face of the wall H, as shown. The body II cannot be removed from within the projecting wall H until release of the catch dog 58 with the shoulder 18, which is accomplished by pressing the projecting metal body or button portion 54 of the catch member 52 inwardly against the action of the spring 55.

The secondary connecter body II, as shown in Fig. 6, comprises a disc of molded insulated material held in a transverse position within the cylindrical wall 48:; and intermediate the ends thereof by means of screws 14 which project through openings 15 in the wall 48a into threadedengagement with the body Ii, as shown'in Fig. 6.

The wall 48a of Fig. 6, like the wall 48 of Fig. 7, g

is constricted at 42a to join a tubular extension 48 identical with the tubular extension 48 of Fig. 7 and having clamping means 45 clamped thereon. Within the extension 48 a circular groove 18 is formed, and in this groove 15 a resilient rubber ring or bushing I1 is placed, which bushing has the purpose of supporting within the opening 18 of the extension I6 such cable or cord as may be extended through the opening I8 into the chamber 88 formed within the wall 480. i The pin contact elements l5 are made from "bar metal and have ribs 8! formed thereon in position to be embedded within the body ii during the molding thereof, whereby the pins l5 will be firmly secured in the body II. The rearward ends 82 of the contact pins l5 are drilled in the same manner as the shanks 21 of the socket contact elements 14 so as to provide axial openings 83 to receive the ends of wires, and the ends 82 of the pins 15 are preferably chamfered in the manner shown at 84 to facilitate soldering the wiresin place.

In Fig. 2 the primary connector body I! is shown mounted in a wall fitting i2 having a flange 85 at the leftward or outer end thereof and having a bore 88 leading inwardly from the face of the flange 85 to a shoulder 81 formed by a bore 88 of reduced diameter at the rearward end of the fitting l2. The diameter of the bore 85 is essentially the same as the external diameter of the rib 24 so that the rib 24 will slide rearwardly into the bore 85, and the bore 88 is of a diameter to fit closely about the cylindrical wall or portion 38 of the body I8 extending rearwardly from the rib or flange 24. As shown in Fig. 2, the body I8 is held in the wall fitting 02 by means of screws 58. In this form of the in vention the catch means has a catch member 52a which is shorter than the catch member 52 of Fig. 7 and has a toe or lug 54a which projects outwardly from the groove 5| of the body I 8 into-a longitudinal groove 88 formed in the fitting i2. Over the leftward or forward end of the groove 88 the flange 55 forms a wall 8|, and at the rearward end of the groove 88 an overlying arch 82 is formed, as shown in Figs. 2 and 4. The spring 55 preferably extends the full length of the groove 5|, and through the opening 52 in the rightward or rearward end thereof a relatively long screw Ha is extended into engagement with the body l8. The head 88 of the screw 8la extends outwardly or upwardly into the arch 82, and on the upper end of the screw Ila an actuating lever 84 is mounted, this actuating lever 84 having an opening 85 near its rearward end adjacent an upwardly turned dog or toe 88 which is adapted to engage the upper wall of the arch, and the lever 84 is of such length that it will extend through the groove 88 and project from the face of the flange 05. when the catch member Ila is in projecting or raised position, as shown in Fig. 2, the lever 94 slopes upwardly and engages the bridge or wall OI over the forward end of the groove 90. By forcing downwardly or inwardly upon the projecting end of the lever ll, such lever 90 may be caused to swing inwardly toward the body l0, transmitting an inward movement to the projection 54a. of the catch member 520 to swing the catch member He into a retracted position in the groove 5|.

My invention readily adapts itself to angle connecter fittings such as shown in Fig. 1, which include a cylindrical wall Ila. set within a ring or annular wall 98 formed at the end of a tubular wall I which is similar to the tubular extension 43 of Figs. 6 and '7 in that it has 'cable clamping means 45 formed at the end thereof.

Within the cylindrical wall Ila and the ring 98 a secondary connecter body II, having pin contacts I supported therein, is secured by means of screws 14, and a chamber or wire-receiving space I02 is formed adjacent the leftward or inner end of the secondaryconnecter body II by means of a cup-shaped metal cap I03 adapted to be secured to the ring 98 by means of screws I04. The cap I03 has a groove I05 therein positioned so as to form an extension of the opening I00 through the member I00 communicating with the chamber I02, and it is preferable to mount within the cylindrical wall I0I of the cap I03 a cylindrical wall I08 of insulating material to prevent engagement of electrical conductors with the side wall of the cap I03. Likewise, similar insulating walls, such as the cylindrical wall I08a of Fig. 6, may be employed in other forms of the invention for similar protective purposes. Multi-conductor electric cables cannot be readily bent around sharp corners, and accordingly the form of my invention shown in Figs. 1 and 3' provides for the connecting of the conductors of the cable to the contact pins without necessity of bending the cable. The cap I03 may be removed so as to expose the inner ends 83 of the contact pins I5, and the end of a cable is then projected through the opening I06 of the member I00 into the space lying to the left of the body II,-whereupon the wires may be quickly connected to the contact pins I5 without necessity of removing the body II and without necessity of bending the cable. The cap I03 may be then replaced to protect the connections which have thus been made, and such cap I03 may be removed at any time for the purpose of inspecting the cable without necessity of removing the body' II -or of bending the end of the cable as would be necessary in the sliding of the cable upwardly through the opening I06 in order to move the body II out of the cylindrical wall Ila.

Although I have herein shown and described my invention in simple and practical form, it is recognized that certain; parts or elements thereof are representative of other parts, elements, or mechanisms which may .be used in substantially the samemanner to accomplish subv stantially the same results; therefore, it is to be understood that the invention is not to be limited to the details disclosed herein but is to be accorded the full scope'of the followingclaims.

1 claim as my invention: Y *1. A connecter of the character described, including: primary and secondary connecter members adapted for interengagement, said primary member comprising a body having a longitudinal groove along the outer face thereof, and said secondary member having a tubular wall to extend over said body of said primary member, there being a shoulder in the inner face of said tubular wall; a catch member lying in said groove of said body, said catch member having a'catch dog on the outer face thereof to engage said shoulder in said tubular wall; a relatively thin metal wall on one end of said body forming a bridge across the forward part of said groove and over one end of said catch member for holding said end of said catch member in said groove; a wall on the opposite end of said body for limiting the outward movement of the opposite end of said catch member relative to said groove; 9. spring coextensive with said groove for yieldably moving said catch member outwardly a limited distance to keep said dog in engagement with said shoulder when said connecter members are in interengagement; a stop on said catch member adapted for engagement with said body to prevent endwise movement of said catch member and said spring in said groove; and a menually operable projection on said catch member for moving the latter inwardly so as to move said dog from engagement with said shoulder to permit separation of said connecter members.

2. A connecter of the character described, including: primary and secondary connecter members adapted for interengagement, said primary member comprising a body having a longitudinal groove along the face thereof, and said secondary member having a tubular wall to extend over said body of said primary member, there being a shoulder in the inner face of said tubular wall; a catch member lying in said groove of said body, said catch member comprising a flat elongated metal strip having a catch dog on the outer face thereof to engage said shoulder in said tubular wall; a ring embedded in said body forming a bridge across the forward part of said groove and over one end of said catch member for holding said end of said catch member in said groove; a wall on the opposite end of said body for limiting the outward movement of the opposite end of said catch member relative to said groove; a flat spring in said groove extending between said ring and said wall for yieldably moving said catch member outwardly a limited distance to keep said dog in engagement with said shoulder when said connecter members are in interengagement; stop means engaging said catch member for preventing endwise movement of said member and said spring in said groove; and a manually operable projection on said catch member for moving said catch member inwardly soastoxniove said dog from engagement with ber having a catch dog on the outer face thereof to engage said shoulder in said tubular wall; a reinforcing ring around the forward end of said body, a portion of said ring forming a bridge over the forward end of said groove and over the forward end of said catch member; a fitting on the rear end portion of said body having a wall surface for limiting theoutward movement of said catch member in said groove; a flat spring coextensive with said groove for yieldably moving said catch member outwardly a limited distance to keep said dog in engagement with said shoulder when said connecter members are in int'erengagement; a stop element engaging said catch member for preventing endwise movement of said catch member and said spring in said groove; and a manually operable projection for moving said catch member inwardly so as to move said dog from engagement with said shoulder to permit separation of said connecter members.

4. A connecter of the character described, including: a primary connecter member and a secondary connecter member adapted for interengagement; cooperating contact members carried by said primary and secondary connecter members; walls forming a groove coextensive with said primary member; a shoulder disposed interiorly of said secondary connecter member; a catch member in said groove having a dog adapted to engage said shoulder; a fitting attached to said primary connecter member having an inwardly sloping edge wall surface; a fiat spring in said groove for yieldably moving said catch member outwardly a limited distance to keep said dog in engagement with said shoulder when said connecter members are in interengagement; a ring secured to the forward end of said primary connecter member and encircling the forward ends of said catch member and said spring; walls providing a recess in said primary connecter member; a screw connecting the forward ends of said catch member and said spring and having a portion projecting within said recess so as to prevent endwise movement of said catch member and said spring in said groove; a button on said catch member movable inwardly to release said dog from engagement with said shoulder; and a projection on said button engageable with the sloping edge wall of said tubular fitting to limit the outward movement of said catch member in said groove.

5. A connecter of the character described, including: primary and secondary connecter members adapted for interengagement, said primary member comprising a'body of insulating material having a longitudinal groove along the face thereof, and said secondary member having a tubular wall extending over said body of said primary member, there being a shoulder in. the inner face of said tubular wall; a catch member lying in said groove of said body, said catch member having a dog adapted for engagement with said shoulder in said tubular wall; a connecter fitting on said primary connecter member body having a notch providing an inwardly sloping edge portion; a spring coextensive with said groove for moving said catch member outwardly to keep said dog in engagement with said shoulder, said body having a recess, there being a screw in said recess connecting between said catch member and said spring so as to prevent endwise movement of said catch member and said spring in said groove; and a button on said catch member having a projection thereon adapted for engagement with the sloping edge portion of said connecter fitting for limiting the outward movement of said catch member.

6. A connecter of the character described, including: primary and secondary connecter members adapted for interengagement, said primary member comprising a body of insulating material having a longitudinal groove along the face thereof and said secondary member having a tubular wall extending over said body of said primary member, there being a shoulder in the inner face of said tubular wall; a catch member lying in said groove of said body, said catch member having a dog adapted for engagement with said shoulder in said tubular wall; a connecter fitting on said primary connecter body having a notch providing an inwardly sloping edge portion; a spring associated with said catch member in said groove for moving said dog outwardly into engagement with said shoulder; walls providing a recess in said primary connecter body; a screw connecting said catch member and said spring and having a portion thereof projecting into said recess; a ring carried onthe outer end of said primary connecter body and bridging the outer ends of said catch member and said spring, said screw cooperating with said ring to prevent longitudinal displacement of said catch member; and a manually operable projection on said catch member for moving said dog inwardly from engagement with said shoulder, said projection having an outwardly extending portion adapted for engagement with the sloping edge portion of said connecter fitting for limiting the outward movement of said catch member.

7. A connecter of the character described, including: a casing having a body receiving opening, there being a shoulder disposed adjacent the end of said opening; a wall in said casing supporting a plurality of contact pins; a body of insulating material adapted to be received in said casing in axial alignment with said opening, said body having therein a plurality of axially elongated chambers; a wall secured to said body having a plurality of openings communicating with said chambers; conductor members loosely mounted in said chambers and having stems projecting through said wall openings, said conductor members each comprising a metal bar having sockets for the reception of said contact pins; a flat metal spring secured to the exterior of each of said bars in position to forcibly bear against said contact pins when said casing and said body are in interengagement; a fitting attached to said body wall into which said conductor member stems project; walls providing a longitudinal groove along the face of said body; a catch member lying in said groove, said catch member having a catch dog on the outer face thereof to engage said casing shoulder; a flat spring coextensive with said catch member in said groove for yieldably moving said catch member outwardly to keep said dog in engagement with said shoulder; a reinforcing ring around the forward end of said body for holding one end of said catch member in said groove; walls forming a recess in said body; a stop element engaging said catch member and having a portion projecting within, said recess for preventing endwise movement of said catch member in said groove, said fitting providing an inwardly sloping wall surface engageable by the other end of said catch member when said catch member is moved outwardly by said spring so as to limit the outward movement of'said catch member; and a projection on said catch member movable inwardly to release said dog from engagement with said casing shoulder.

JAMES H. CANNON. 

